@Cinch Retaining state for errors in a flexible way. That's a weird thing to ask. Better to observe the program and make a list of common things that go wrong. Then think about how each of those should ideally be handled. Chances are that after a while you'll start to notice a common pattern which leads to the solution. Or maybe not. I don't know :P
And then I'd ignore all that and try my own invention. After a long time I will realize my folly. Then I'll look again at those other systems and finally understand why they work the way they do.
Substitution failure is not an error (SFINAE) refers to a situation in C++ where an invalid substitution of template parameters is not in itself an error. David Vandevoorde first introduced the acronym SFINAE to describe related programming techniques.
Specifically, when creating a candidate set for overload resolution, some (or all) candidates of that set may be the result of instantiated templates with (potentially deduced) template arguments substituted for the corresponding template parameters. If an error occurs during the substitution of a set of arguments for any given template, the compiler...
@Rapptz, I have seen SFINAE before. My question was more along under what circumstances people find it useful to use that function. I think I found some uses in the documentation though.
@AnirudhRamanathan It's compile-time. C++ doesn't have reflection, but lots of things that are normally done in Java at run-time can be done with some combination of SFINAE and traits at compile-time in C++.
@chris, I don't see the kind of use you showed above with is_odd. By the looks of it, both Axioms and Constraints seem to provide bounded quantification only.
@Rapptz Axioms don't look like they're checks really. They seem (by name and usage) like assumptions that the compiler can simply make whilst optimizing code .
@Rapptz It is impossible to check at compile-time, being semantic requirements that can't be judged statically. Maybe there is a mode in which you perform actual runtime checks, but for most part, I would say they are truly axioms, in that they are considered "truths" that the programmer has written down, which aren't checked but assumed and used in optimizations.
Has anyone successfully employed a software oriented performance optimization strategy* to every day life problems? I've sped up code by factor of 100x or more several times -- imagine if we could improve every day things like that?
* like 1) define objective (e.g. process million transactions / second), 2) measure/profile, 3) make changes based on profile to improve performance, 4) repeat 2-3 as necessary
I'm imagining a CEO wandering around the office and sampling the stack by asking random people what they are doing at any given time, then thinking about why they were doing it and how to speed up productivity
@JDiMatteo Tried many of those in real life. I schedule activities that way as well; to optimize efficiency and productivity. It works till there is some novelty to it and then it gets hard to get the same speedup. Turns out monotony is bad for humans and great for computers.
yeah, I guess poor man's profiling wouldn't work so well for that CEO if every employee was doing something seemingly unique each time... I guess life seems richer in diversity and less structured compared to what a typical high performance program does
if only I could get a 400x improvement in my salary in the time it takes me to speed up a program by a factor of 400, lol
@JDiMatteo That sort of thing is normally referred to as "Methods engineering". The general idea of using it to manage people is (or at least once was) referred to as "Scientific Management".
@JerryCoffin thanks, it is nice to see a term for what I had in mind. Too bad the Wikipedia article says it was obsolete over 100 years ago. seems kind of funny how it was documented to work except that it pissed off people to such an extent that it became counter productive in many cases
I saw a huge one today at the library; hanging from one of the lights. The bigger ones are scarier to kill because of the scrunching noise they'll make
No. Only two of the faces (lets say top, bottom) had diagonals and there were more than two diagonals. The four side faces were all squares though... I think.
> If different rotations of a given permutation are counted only once while reflections are counted individually, there are 170 × 2 × 8! × 8! = 552,738,816,000 positions.
@R.MartinhoFernandes have you solved the one with the whole in the middle? I have it but haven't really figured out a way to keep track of which side should be which :/
@sehe Oh, never mind what I said about parity errors. What I said about corners still works, but it seems there are parity errors. I never realised that. Maybe I should play a bit more with mine.
.@SonyPictures I think those hackers last year left a virus, since your movie franchises are constantly rebooting now.
Edit: I've decided to undelete this question because I feel that its low rep might be keeping me back. I have a desire to improve the question and will shortly be posting an answer answering this question.
Why were char ever defined as ones' complement rather than twos', and what was their reaso...
I have just started making hashing functions for a C++ class lab and I have to ask, why must the syntax be a % b for modulus and not a%b? I'm allowed to do a+b and a*b, but I need an extra space for modulus or else I get some weird values for an int array I was creating?